Experimental engineering of ovarian grafting to promote angiogenesis for fertilit

卵巢移植促进生育力血管生成的实验工程

基本信息

项目摘要

DESCRIPTION (provided by applicant): As the numbers of patients continue to rise after high-dose chemotherapy and/ or irradiation for cancer and other diseases, more attention is focused on improving their quality-of-life, with fertility one of the top priorities for young people. Women have had fewer options for avoiding iatrogenic infertility and menopause compared with men, and prepubertal girls have virtually none. Cryopreservation or vitrification of embryos is a standard of care, and oocyte banking is now emerging for single women, but neither of these assisted reproductive technologies is universally suitable or acceptable, nor can either help children. Low temperature banking of ovarian tissue slices, and perhaps whole ovaries one day, now offers an option for these people and, so far, six full-term pregnancies have been established after transplanting thawed tissue, and several others after fresh tissue, but no grafts were still functioning after three years. This strategy for preserving fertility is still considered 'experimental', though proof of principle was established many years ago in animal models. Those studies revealed a large and variable fraction of follicles is lost by ischemia during the first 2-5 days until the grafts are revascularized, whereas the impact of cryoinjury was comparatively minor. According to our hypothesis, a reduction in ischemia time will be beneficial for extending graft function and potentiating fertility by reducing the amount of necrotic tissue and the fraction of wasted follicles. In Aim 1, we will characterize the cellular and molecular determinants of angiogenesis in ovarian grafts and their temporal course in relation to follicular survival. This aim will fill a knowledge gap by investigating the role of candidate factors, notably VEGF and PDGF, involved in revascularizing mouse ovaries grafted into skeletal muscle and human ovarian xenografts in NOD-scid mice as a translational model. The studies will include novel methods to monitor reperfusion non-invasively by microultrasound during the first two weeks post-grafting, and molecular and cellular quantification of vascular growth, angiogenic factors, follicular survival and factors in the extracellular matrix. In Aim 2, we will test two experimental strategies for improving vascular perfusion and follicle survival by tissue engineering either at the future graft site or the graft itself. In the first, we will implant alginate hydrogels into muscle for local, phased release of angiogenic factors to stimulate endothelial cells and pericytes with the goal of accelerating the formation of a stable microcirculation in murine grafts. In the second, we will reduce collagen bulk in human ovarian tissue to test whether the higher fiber density is a barrier to vascular invasion and potentially responsible for the higher fraction of follicles wasted. A successful outcome of either of these experiments could lead to clinical implementation for patients who plan to bank their ovarian tissue to preserve fertility. PUBLIC HEALTH RELEVANCE: There is an urgent public health need for effective and acceptable fertility preservation technologies to serve rising numbers of patients surviving cancer treatment after drugs and irradiation that potentially cause infertility and premature ovarian failure. Ovarian tissue banking has been adopted by several thousand patients worldwide because it offers some advantages over embryo/ oocyte banking, especially for children, but tissue grafted back has only generated a few viable pregnancies so far and only functions for a few years. This research project will fill the knowledge gap about the biology of revascularization of ovarian grafts, which limits the fraction of surviving follicles, and will test two strategies aimed at enhancing angiogenesis.
描述(申请人提供):随着癌症和其他疾病高剂量化疗和/或放疗后患者数量持续增加,人们越来越关注改善他们的生活质量,生育能力是年轻人的首要任务之一。与男性相比,女性避免医源性不孕和绝经的选择较少,青春期前的女孩几乎没有选择。冷冻保存或玻璃化冷冻胚胎是一种标准的护理,卵母细胞银行现在正在出现单身女性,但这些辅助生殖技术都不是普遍适用或可接受的,也不能帮助孩子。卵巢组织切片的低温储存,也许有一天是整个卵巢,现在为这些人提供了一种选择,到目前为止,在移植解冻组织后已经建立了六个足月妊娠,还有几个在新鲜组织后,但没有移植物在三年后仍然起作用。这种保持生育能力的策略仍然被认为是“实验性的”,尽管多年前在动物模型中建立了原理证明。这些研究表明,在移植物血运重建前的前2-5天内,缺血导致大量不同比例的卵泡丢失,而冷冻损伤的影响相对较小。根据我们的假设,缺血时间的减少将有利于通过减少坏死组织的数量和废弃卵泡的比例来延长移植物功能并增强生育能力。在目标1中,我们将描述卵巢移植物中血管生成的细胞和分子决定因素及其与卵泡存活的时间过程。这一目标将填补一个知识空白,通过调查的候选因素,特别是VEGF和PDGF的作用,参与重建移植到骨骼肌和人类卵巢异种移植的NOD-scid小鼠作为一个翻译模型的小鼠卵巢。这些研究将包括在移植后的前两周内通过微超声非侵入性地监测再灌注的新方法,以及血管生长、血管生成因子、卵泡存活和细胞外基质中因子的分子和细胞定量。在目标2中,我们将测试两种实验策略,用于通过组织工程在未来移植部位或移植物本身改善血管灌注和卵泡存活。首先,我们将藻酸盐水凝胶植入肌肉局部,分阶段释放血管生成因子,以刺激内皮细胞和周细胞,目的是加速小鼠移植物中稳定微循环的形成。第二,我们将减少人类卵巢组织中的胶原蛋白体积,以测试较高的纤维密度是否是血管侵袭的屏障,并可能导致较高的卵泡浪费率。这些实验的任何一个成功结果都可能导致计划储存卵巢组织以保持生育能力的患者的临床实施。公共卫生相关性:公共卫生迫切需要有效和可接受的生育力保存技术,以服务于越来越多的癌症治疗后幸存的患者,这些患者在药物和放射治疗后可能导致不孕症和卵巢早衰。卵巢组织库已被全球数千名患者采用,因为它提供了一些优于胚胎/卵母细胞库的优势,特别是对于儿童,但到目前为止,移植回的组织只产生了一些可行的妊娠,并且只起了几年的作用。该研究项目将填补有关卵巢移植物血运重建生物学的知识空白,这限制了存活卵泡的比例,并将测试两种旨在增强血管生成的策略。

项目成果

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Glenn Lewis Schattman其他文献

Glenn Lewis Schattman的其他文献

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{{ truncateString('Glenn Lewis Schattman', 18)}}的其他基金

Experimental engineering of ovarian grafting to promote angiogenesis for fertilit
卵巢移植促进生育力血管生成的实验工程
  • 批准号:
    7687765
  • 财政年份:
    2009
  • 资助金额:
    $ 24.84万
  • 项目类别:

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